Development and Realization an Android Based Software to Support Feasibility Study of Harmonics Mitigation

Harmonic distortion is not a new phenomenon and has several detrimental impacts on electrical power system. Therefore, installation of harmonic filter is needed to mitigate and suppress it. Most PC based software have been developed to conduct feasibility study such as OrCAD, ETAP, DigSILENT, PSIM,...

Full description

Saved in:
Bibliographic Details
Published in:International Journal on Electrical Engineering and Informatics 2021-06, Vol.13 (2), p.297-317
Main Authors: Irianto, Chairul Gagarin, Pradika Napitupulu, Haposan Yoga, Widjaja, Maulasukma
Format: Article
Language:English
Subjects:
Deviation
Electric power systems
Engineering schools
Engineers
Feasibility studies
Filtration
Harmonic distortion
Libraries
Mathematical analysis
Parameters
Simulation
Software
Citations: Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Harmonic distortion is not a new phenomenon and has several detrimental impacts on electrical power system. Therefore, installation of harmonic filter is needed to mitigate and suppress it. Most PC based software have been developed to conduct feasibility study such as OrCAD, ETAP, DigSILENT, PSIM, etc. Unfortunately, all of them only provide the harmonics data of power electronics from their library which can lead the simulation into inaccurate result since it will produce a wide range of deviation until 179,8% in the simulation of last research in reference [16].Meanwhile conduct simulation using measured data from real condition of power system, comparing the harmonics distortion occurred to the standard, and filter's parameter calculation can't be conducted on those software yet. This research proposes an Android based software namely HFMS Usakti, an application to conduct harmonics distortion feasibility study more accurate and efficient. HFMS Usakti consists of three main steps: automatically check and compare harmonics distortion occurred according to the Standard IEEE 519TM-2014, automatically calculate the parameter of filters, and automatically simulate harmonics distortion after filtering. This research consists of three main aspects: application design, development, and testing. In the end, HFMS Usakti has been validated using PSIM software and experimental testing. The result shows that HFMS Usakti works properly and be able to significantly eliminate the deviation between the measured data and simulation value of harmonics distortion before filtering from 179,8% to 0%.
ISSN:2085-6830
2087-5886
DOI:10.15676/ijeei.2020.13.2.4